Monitoring Voltage, Current, and Power on 20WP Solar Power Plant Based on Internet of Things (IoT)

Authors

  • Deyi Politeknik Negeri Pontianak
  • Satriyo Politeknik Negeri Pontianak
  • Mariana Syamsudin Politeknik Negeri Pontianak
  • Rianda Politeknik Negeri Pontianak
  • Mohd Ilyas Hadikusuma Politeknik Negeri Pontianak
https://doi.org/10.58466/entries.v3i2.1644

Abstract

Solar Power Plants (PLTS) have great potential in Indonesia due to the year-round sunshine. To monitor the performance of solar panels, which are the main component of PLTS, an effective monitoring system is required. However, there are several challenges in remote monitoring of PLTS. The solution is to use a device that helps humans monitor PLTS performance and send notifications to phones or computers via the internet. One platform that can be used is Adafruit, an IoT platform that offers remote monitoring via the internet with hardware support and a broad community. The obtained data show that the measurement values of current, voltage, and power from the battery, solar panels, and inverter have relatively small deviations, with a Relative Deviation Average (RSR) of 4.4676%. The Overall Accuracy Rate, reaching 95.5324%, indicates that the system is reliable in providing accurate measurements, closely matching the expected reference values.

Keywords: Monitoring System, Internet of Things (IoT), Adafruit.

References

Adafruit Industries. (2021). Adafruit IO Documentation.

Arya, D., Widodo, G., & Wulandari, A. (2020). Analisis Performa Solar Charge Controller Berbasis Maximum Power Point Tracking (MPPT) Pada Sistem Pembangkit Listrik Tenaga Surya. Jurnal Teknik Elektro, 20(1), 1–9. https://doi.org/10.25077/jte.20.1.1-9

DFRobot. (2021). LCD1602 I2C Module (SKU: DFR0063) Datasheet.

Espressif Systems. (2023). ESP32 Series Datasheet.

Gunawan, H., & Ula, H. (2017). Prinsip Kerja Inverter. Jurnal Sains Dan Teknologi Indonesia, 19(1), 1–5. https://doi.org/10.20527/jsti.v19i1.3673

Hermanto, I. D. W. (2022). Sistem Monitoring dan Pengukuran Pembangkit Listrik Surya dan Angin Berbasis Internet of Things Sistem Monitoring dan Pengukuran Pembangkit Listrik Surya dan Angin Berbasis Internet Things ( IoT ). Jurnal Teknik Elektro, 11(3), 371–378.

Peacefair Electronic. (2018). PZEM-004T V3.0 AC Digital Multifunction Power Monitor Module.

Pratama, S. B. (2022). SISTEM MONITORING PEMBANGKIT LISTRIK TENAGA SURYA (PLTS) BERBASIS INTERNET OF THINGS. SKRIPSI.

Putri, M. R., Setyawan, F. X. A., & Sumadi, S. (2022). Sistem Kontrol Beban Dan Monitoring Daya Baterai Pada Panel Surya 50Wp Untuk Aplikasi Penerangan Berbasis Internet of Things. Jurnal Informatika Dan Teknik Elektro Terapan,(3).https://doi.org/10.23960/jitet.v10i3.2640

Silva, A. F., Ferreira, C. M., Lopes, A. C., Afonso, A. P., & Silva, C. (2020). Energy storage systems for solar photovoltaic applications. A Review. Energies, 13(22), 5947. https://doi.org/10.3390/en13225947'

Sparkfun. (n.d.). Serial Enabled16x2 LCD. 10–11. https://www.sparkfun.com/products/9395

Sutikno, T., Alfahri, J., & Purnama, H. S. (2023). Monitoring Tegangan dan Arus Pada Panel Surya Menggunakan IoT.

Published

2024-06-01

How to Cite

Deyi, Satriyo, Syamsudin, M., Rianda, & Ilyas Hadikusuma, M. (2024). Monitoring Voltage, Current, and Power on 20WP Solar Power Plant Based on Internet of Things (IoT). Electrical Network Systems and Sources, 3(2), 116 - 120. https://doi.org/10.58466/entries.v3i2.1644

Most read articles by the same author(s)

1 2 > >>